numerical control

简明释义

数字控制

英英释义

例句

1.Training on numerical control systems is essential for our engineers.

对我们的工程师进行数控系统的培训是至关重要的。

2.Many industries rely on numerical control to enhance their manufacturing processes.

许多行业依赖于数控来增强他们的制造过程。

3.With numerical control, we can produce complex shapes that were impossible before.

通过数控，我们可以生产以前不可能的复杂形状。

4.The introduction of numerical control has revolutionized the machining industry.

引入数控技术彻底改变了机械加工行业。

5.The factory has upgraded its machinery to use numerical control for better precision.

工厂升级了其机械设备，使用数控以提高精度。

作文

In the modern manufacturing landscape, the term numerical control refers to a method used to automate machine tools through programmed commands. This technology has revolutionized the way products are designed and manufactured. Before the advent of numerical control (数控), machining processes were primarily manual, requiring skilled operators to guide machines and tools by hand. This reliance on human skill often led to inconsistencies and errors in production. However, with the introduction of numerical control, precision and efficiency have dramatically improved.The concept of numerical control originated in the 1950s when engineers began to explore ways to use computers to control machine tools. By inputting a series of coordinates and commands into a computer, it became possible to dictate the movements of a machine tool with high accuracy. This innovation allowed for complex shapes and designs to be produced with minimal human intervention. As a result, manufacturers could produce parts that were not only more precise but also replicated consistently across multiple units.One of the most significant advantages of numerical control is its ability to enhance productivity. Traditional machining methods required a considerable amount of time for setup and operation. In contrast, numerical control systems can be programmed to perform a variety of tasks without the need for constant supervision. This automation reduces labor costs and allows for faster turnaround times, making it an attractive option for manufacturers looking to increase their output.Moreover, the implementation of numerical control has made it easier for companies to adapt to changing market demands. With programmable systems, manufacturers can easily switch between different product designs or specifications. This flexibility is crucial in today’s fast-paced business environment, where consumer preferences can change rapidly. Companies that utilize numerical control can respond to these shifts more effectively, ensuring they remain competitive.Additionally, numerical control technology has paved the way for advancements in other areas of manufacturing, such as computer-aided design (CAD) and computer-aided manufacturing (CAM). These technologies work in tandem with numerical control systems, allowing designers to create intricate models that can be directly translated into machine instructions. The synergy between these technologies has led to innovations in product design, enabling the production of highly complex and customized items.Despite its many benefits, the transition to numerical control systems is not without challenges. Initial setup costs can be substantial, and there is a learning curve associated with programming and operating these advanced machines. Additionally, as industries increasingly rely on automation, there are concerns about job displacement for skilled laborers. It is essential for companies to address these issues through training and workforce development programs to ensure that employees can transition into new roles created by this technology.In conclusion, numerical control is a transformative technology that has reshaped the manufacturing industry. By automating machining processes, it has improved precision, increased productivity, and provided manufacturers with the flexibility to adapt to market changes. As technology continues to advance, the role of numerical control will likely expand, further influencing how products are designed and produced. Embracing this technology will be crucial for companies aiming to thrive in an increasingly competitive global marketplace.

在现代制造业中，术语数控指的是通过编程命令自动化机床的一种方法。这项技术彻底改变了产品设计和制造的方式。在数控（numerical control）出现之前，加工过程主要是手动的，需要熟练的操作员手动引导机器和工具。这种对人类技能的依赖常常导致生产中的不一致性和错误。然而，随着数控的引入，精度和效率显著提高。数控的概念起源于20世纪50年代，当时工程师们开始探索利用计算机控制机床的方法。通过将一系列坐标和命令输入计算机，可以以高精度指示机床的运动。这一创新使得能够以最小的人为干预生产复杂的形状和设计。因此，制造商可以生产出不仅更精确而且在多个单位之间一致复制的零件。数控的一个重要优势是其提高生产率的能力。传统的加工方法在设置和操作上需要相当多的时间。相比之下，数控系统可以被编程执行各种任务，而无需持续监督。这种自动化降低了劳动成本，并允许更快的周转时间，使其成为希望提高产出的制造商的吸引选项。此外，数控技术使公司更容易适应市场需求的变化。通过可编程系统，制造商可以轻松切换不同的产品设计或规格。这种灵活性在当今快速变化的商业环境中至关重要，因为消费者偏好可能会迅速变化。利用数控的公司能够更有效地应对这些变化，确保他们保持竞争力。此外，数控技术为制造业其他领域的进步铺平了道路，例如计算机辅助设计（CAD）和计算机辅助制造（CAM）。这些技术与数控系统协同工作，使设计师能够创建可以直接转换为机器指令的复杂模型。这些技术之间的协同作用导致了产品设计的创新，使高度复杂和定制的项目得以生产。尽管有许多好处，但过渡到数控系统并非没有挑战。初始设置成本可能很高，并且与编程和操作这些先进机器相关的学习曲线也很陡。此外，随着行业越来越依赖自动化，人们对熟练工人的工作流失感到担忧。公司必须通过培训和劳动力发展计划来解决这些问题，以确保员工能够过渡到这项技术创造的新角色。总之，数控是一项变革性的技术，重塑了制造业。通过自动化加工过程，它提高了精度，增加了生产率，并为制造商提供了适应市场变化的灵活性。随着技术的不断进步，数控的角色可能会扩大，进一步影响产品的设计和生产。拥抱这项技术对于希望在日益竞争激烈的全球市场中蓬勃发展的公司至关重要。